Midterm 4

Question 1

Define pyrosequencing.

Answer 1

A parallel strategy enabling hundreds of thousands of short sequences to be sequence at a time.

Question 2

Define chain termination DNA sequencing.

Answer 2

Based on the principle that single-stranded DNA molecules that differ in length by just a single nucleotide can be separated from one another by gel electrophoresis.

Question 3

What is the starting material for chain termination DNA sequencing.

Answer 3

preparation of identical single-stranded DNA molecules.

Question 4

How does dideoxynucleotide work?

Answer 4

blocks further elongation because it lacks the 3′-hydroxyl group needed to form a connection with the next nucleotide.

Question 5

Why does strand synthesis not end close to the primer in chain termination DNA sequencing?

Answer 5

Because the normal deoxynucleotides are also present, in larger amounts than the dideoxynucleotides

Question 6

What is the result of chain termination DNA sequencing?

Answer 6

a set of new molecules, all of different lengths, and each ending in a dideoxynucleotide whose identity indicates the nucleotide—A, C, G, or T

Question 7

How can the DNA sequence be determined?

Answer 7

identify the dideoxynucleotide at the end of each chain-terminated molecule by running the strands through a gel.
The mixture is loaded into a well of a gel, and electrophoresis is carried out to separate the molecules according to their lengths.
After separation, the molecules are run past a fluorescent detector capable of discriminating the labels attached to the dideoxynucleotides The detector determines if each molecule ends in an A, C, G, or T.

Question 8

Why can you not use all polymerases for chain termination DNA sequencing.

Answer 8

many DNA polymerases have a mixed enzymatic activity, being able to degrade as well as synthesize DNA (p. 48). Degradation can occur in either the 5′→3′ or 3′→5′ direction , and both activities are detrimental to accurate chain termination sequencing.

Question 9

What happens to degradation in the 5’?
What happens to degradation in the 3’?

Answer 9

The 5′→3′ exonuclease activity enables the polymerase to remove nucleotides from the 5′ ends of the newly-synthesized strands, changing the lengths of these strands so that they no longer run through the polyacrylamide gel in the appropriate order.
The 3′→5′ activity could have the same effect, but more importantly will remove a dideoxynucleotide that has just been added at the 3′ end, preventing chain termination from occurring.

Question 10

What is the first step of a chain termination sequencing experiment?

Answer 10

A primer is annealed onto the template DNA.

Question 11

What is the main function of the primer?

Answer 11

to provide the short double-stranded region that is needed in order for the DNA polymerase to initiate DNA synthesis.
also plays a second critical role in determining the region of the template molecule that will be sequenced.

Question 12

Up to how many sequences can be obtained through a single run of chain termination sequencing experiment?

Answer 12

96 sequences

Question 13

What primers are used if a plasmid vector was used to clone DNA?

Answer 13

The forward and reverse primers used in PCR. For example, we use T7 FP and SP6 RP.

Question 14

True or False: The DNA polymerase used in subcloning has proofreading activity.

Answer 14

True

Question 15

Define 3’-5’ exonuclease proofreading activity

Answer 15

Proofreading activity outside the DNA fragment

Question 16

Define 3’-5’ endonuclease proofreading activity.

Answer 16

Proofreading activity inside the DNA fragment.

Question 17

Define translesion syntehsis.

Answer 17

Direct replication of DNA damage

Question 18

Explain DNA polymerase proofreading acticity

Answer 18

a spell-checking activity enabling DNA polymerases to remove newly made nucleotide incorporation errors from the primer terminus (3’) before further primer extension and prevents translesion synthesis.

Question 19

What does sanger sequecning allow for?

Answer 19

Reading of DNA

Question 20

What is the principle of sanger sequencing?

Answer 20

DNA synthesis/ replication

Question 21

What did sanger wanted to do with DNA synthesis?

Answer 21

Wanted to carry out DNA synthesis in vitro (outside of cell, usually in test tube) rather than in vivo (in a cell).

Question 22

What is needed in invivo DNA synthesis

Answer 22

Template DNA
Primer: need a primer to bind to each end (F and R)
Enzyme: DNA polymerase (Taq DNA polymerase in the lab)
dNTP: dATP, dGTP, dCTP, dTTP (the d stands for deoxy)

Question 23

What is needed for sanger sequencing?

Answer 23

Template DNA
Primer: need a primer to bind to each end (F and R)
Enzyme: DNA polymerase (Taq DNA polymerase in the lab)
dNTP: dATP, dGTP, dCTP, dTTP (the d stands for deoxy)
ddNTP for Sanger sequencing

Question 24

Draw the strcuture of dNTP and ddNTP. What is different?

Question 25

What is used in DNA to make a phosphodiester bond?

Answer 25

In DNA the hydroxyl group of the dNTP is used to make a phosphodiester bond

Question 26

What did sanger do to dNTP.

Answer 26

Removed the OH from the 3’ resulting in ddNTP

Question 27

What happens when a ddNTP is incorporated in Sanger Sequencing?

Answer 27

Aphosphodiester bond cannot form and the strand stops since an additional nucleotide cannot be added to continue the strand.

Question 28

What are the differences between what the dNTP and ddNTP allows? How do they differ?

Answer 28

dNTP allows for elongation while ddNTP allows for stopping.
dNTP has a OH in the 3rd position while ddNTP has a H.

Question 29

What are the ends in fragments of Sanger sequencing like?

Answer 29

The 3’ ends different for each by a nucleotide.

Question 30

how is the nucleotide at the end of the fragments in sanger sequencing determined?

Answer 30

By the ddNTP that was incorporated.

Question 31

What do all the new strands from sanger sequencing have in common and different? How do we know the difference?

Answer 31

A common 5’
Different 3’ by one nucleotide
To know the difference, need to run a gel to know the nucleotide at the end.

Question 32

What is the orientation of primers?

Answer 32

5’ to 3’

Question 33

What direction are primers always made from the template strand?

Answer 33

3’ to 5’

Question 34

How do you make a primer in a paragraph type sequence of nucleotides?

Answer 34

the reverse primer is the only one the primer is made from and the forward primer is a copy from the start codon.

Question 35

What is in each sanger sequencing tube?

Answer 35

Template, primer, enzyme, dNTP, and ddNTP.

Question 36

How many primers are used in sanger sequencing?

Answer 36

1, either reverse or forward.

Question 37

When the tubes from sanger sequecing are loaded in a gel electrophoresis, what happens?

Answer 37

the shortest sequence will go first (to the bottom) then to the top (largest)

Question 38

How is the sequence determined from a gel in sanger sequencing?

Answer 38

Read the sequence from bottom to top (5’ to 3’)
Then the complementary is the sequence

Question 39

How many tubes are prepared in modern day sanger sequencing? What are in the tubes?

Answer 39

1 reaction
Template
Primer (F or R)
Taq DNA polymerase
dNTPs
Fluorescently labeled ddNTP

Question 40

How many flourescent colors are emitted in sanger sequencing.? What do they correspond to?

Answer 40

4 colors corresponding to each nucleotide.

Question 41

What is the molecular weight of an amino acid?

Answer 41

0.11 mol/g

Question 42

What are the two parts of Consensus sequences?

Answer 42

Cofactor binding site and active site.

Question 43

How many primers are needed a sequence from one side? What if you want to read a sequence from both sides?

Answer 43

If you just want to read a sequence, you need 1 primer (reverse or forward)
If you want to read a sequence from both sides need forward and reverse

Question 44

Name the experiment and the result of Isolation in cloning.

Answer 44

Experiment - Polymerase Chain Reaction.
Deanture, Annealing, Extension
Result: Extracted the ORF of the CR gene.

Question 45

How is a PCR verfied?

Answer 45

gel electrophoresis and measure concentration by getting OD using a nandrop spectrophotometer

Question 46

What is in the master mix?

Answer 46

DNA polymerase, FP, RP, dNTPs, green color

Question 47

Name the experiment and the result of Insertion in cloning.

Answer 47

Experiment - Ligation
Insert, vector, Dna ligase (T4 ligase), buffer.
Result: A recombinant DNA molecule with an insert (the extracted ORF of the CR gene). The insert is ligated to the PGEMT - Easy Vector.

Question 48

What is done prior to ligation?

Answer 48

Purification

Question 49

What are the buffers used in purification and their role?

Answer 49

PB: bind to column
PE: Contains ethanol to remove contaminants
EB: Unbind the DNA from the column and precipitate it.

Question 50

What are the components of ligation?

Answer 50

Insert, vector, Dna ligase (T4 ligase), buffer.

Question 51

Name the experiment and the result of amplification in cloning.

Answer 51

Experiment: Transformation
Result: LB agar plate + host cells with recombinant molecule + Xgal + IPTG

Question 52

What happens in transformation?

Answer 52

Incubation in host cells (competent cells usually from e.coli, JM109)
Then plating to grow colonies

Question 53

Name the experiment and the result of selection in cloning.

Answer 53

Experiment: Done through blue white screening.
Result: White colonies with recombinant DNA molecule

Question 54

What is selected in blue white screening and why? Why is the colony that color?

Answer 54

Select white colonies due to them having the recombinant DNA due to insertional inactivation
Grow colonies

Question 55

Name the experiment and the result of confirmation in cloning.

Answer 55

Experiment: Sanger sequencing
Result: Sequence of DNA

Question 56

What is done prior to sequencing?

Answer 56

plasmid isolation and determine concentration through nanodrop

Question 57

Why is confirmation done?

Answer 57

To verify presence of insert and if any mutations occurred

Question 58

What is done after the sequence is obtained?

Answer 58

A blast to verify the insert is our gene of interest by comparing the sequence to the sequence in the ncbi database, to observe the orientation of the insert, and to observe whether there are any mutations.

Question 59

What cloning did we use?

Answer 59

TA cloning

Question 60

Name in detail the steps of cloning. Not just the 5

Answer 60

Isolation
PCR - Denaturing, Annealing, Extension
Gel electrophoresis
Nanodrop
Insertion
Purification
Nanodrop
Ligation
Amplification
Transformation: Incubation and plating
Selection
Blue white screening
Plasmid isolation
Nanodrop
Confirmation
Sanger sequencing
BLAST

Question 61

Why did we use a cloning vector for the cloning step of expression? What is our ultimate goal

Answer 61

We were interested in making copies of the insert. Our ultimate goal is expression of the CR gene.